Battery health monitoring method and apparatus, and electronic cigarette

1. A battery health monitoring method, applicable to an electronic cigarette, wherein said electronic cigarette comprises a battery, a detector, and a controller, said detector connected to said controller, and both said detector and said controller connected to said battery; wherein said battery health monitoring method comprises the steps of: said controller acquiring battery information from said detector based on state of said battery; wherein said state of said battery comprises: a working state and an idle state; said controller determining whether said battery is abnormal based on said battery information; and if said battery is abnormal, said controller controlling said electronic cigarette to issue an alarm signal and/or controlling said battery to stop working wherein when said state of the battery enters the idle state from the working state, said controller acquires from said detector a first battery voltage when the battery enters the idle state and acquires a second battery voltage when the battery enters the working state from the idle state; and wherein, the step of said controller determines whether said battery is abnormal based on said battery information specifically comprises: said controller determining an actual voltage drop based on said first battery voltage and said second battery voltage; said controller determining whether said actual voltage drop is greater than a preset value of voltage drop, and said controller determining that said battery is abnormal if said actual voltage drop is greater than said preset value.

2. The battery health monitoring method according to claim 1, wherein when said battery is the working state, said controller acquires said battery information in real time from said detector, said battery information including: battery temperature, battery voltage, and battery operating current; and said method further comprise, before the step of said controller determining whether said battery is abnormal based on said battery information, a step of said controller recording the acquisition time in real time.

3. The battery health monitoring method according to claim 2, wherein the step of said controller determining whether said battery is abnormal based on said battery information specifically comprises: said controller calculating the actual battery charging and discharging capacity based on said battery voltage, said battery operating current and said acquisition time; said controller determining a standard battery charging and discharging capacity in a preset battery model; and said controller determining that said battery is abnormal if at least one of actual difference between said actual battery charge capacity and said standard battery charge capacity, said battery temperature, and said battery operating current is not within preset criteria.

4. The battery health monitoring method according to claim 3, wherein the step of said controller calculating the actual battery charging and discharging capacity based on said battery voltage, said battery operating current and said acquisition time specifically comprises: said controller extracting a third battery voltage and a first battery operating current corresponding to the current acquisition time and a fourth battery voltage and a second battery operating current corresponding to a previous acquisition time; said controller determining a time interval based on said current acquisition time and said previous acquisition time; said controller calculating the actual battery charging and discharging capacity based on said time interval, said third battery voltage, said fourth battery voltage, said first battery operating current, and said second battery operating current.

5. The battery health monitoring method according to claim 4, wherein said controller determines a standard battery charging and discharging capacity in said predetermined battery model based on said third battery voltage and said fourth battery voltage.

6. A battery health monitoring device, applicable to an electronic cigarette, wherein said electronic cigarette comprises a battery, a detector, and a controller, said detector connected to said controller, and both said detector and said controller connected to said battery; wherein said battery health monitoring device comprises: an acquisition module for acquiring battery information from said detector based on state of said battery, wherein said state of said battery comprises: a working state and an idle state; and wherein when said state of the battery enters the idle state from the working state, said acquisition module acquires from said detector a first battery voltage when the battery enters the idle state and acquires a second battery voltage when the battery enters the working state from the idle state; a determination module for determining whether said battery is abnormal based on said battery information; wherein, said determination module determines an actual voltage drop based on said first battery voltage and said second battery voltage; and determines that said battery is abnormal if said actual voltage drop is greater than a preset value of voltage drop; and a control module for, when said battery is abnormal, controlling said electronic cigarette to issue an alarm signal and/or controlling said battery to stop working.

7. An electronic cigarette comprising: a battery; a detector, said detector connected to said battery for collecting battery information of said battery; and a controller, said controller connected to said battery and said detector, said controller comprising at least one processor, and, a memory communicatively connected to said at least one processor, said memory storing computer instructions executable by said at least one processor to enable said at least one processor to perform the method of claim 1.

8. The electronic cigarette according to claim 7, wherein said detector is an analog detection circuit or a power meter.

9. The electronic cigarette according to claim 7, wherein the state of the battery comprises: a working state and an idle state.

10. The electronic cigarette according to claim 9, wherein when the state of the battery enters the idle state from the working state, the controller acquires from the detector a first battery voltage when the battery enters the idle state and acquires a second battery voltage when the battery enters the working state from the idle state.

11. The electronic cigarette according to claim 10, wherein the step of the controller determines whether the battery is abnormal based on the battery information specifically comprises: the controller determining an actual voltage drop based on the first battery voltage and the second battery voltage; the controller determining whether the actual voltage drop is greater than a preset value of voltage drop, and the controller determining that the battery is abnormal if the actual voltage drop is greater than the preset value.

12. The electronic cigarette according to claim 9, wherein when the battery is the working state, the controller acquires the battery information in real time from the detector, the battery information including: battery temperature, battery voltage, and battery operating current; and the method further comprise, before the step of the controller determining whether the battery is abnormal based on the battery information, a step of the controller recording the acquisition time in real time.

13. The electronic cigarette according to claim 12, wherein the step of said controller determining whether said battery is abnormal based on said battery information specifically comprises: said controller calculating the actual battery charging and discharging capacity based on said battery voltage, said battery operating current and said acquisition time; said controller determining a standard battery charging and discharging capacity in a preset battery model; and said controller determining that said battery is abnormal if at least one of actual difference between said actual battery charge capacity and said standard battery charge capacity, said battery temperature, and said battery operating current is not within preset criteria.

14. The electronic cigarette according to claim 13, wherein the step of said controller calculating the actual battery charging and discharging capacity based on said battery voltage, said battery operating current and said acquisition time specifically comprises: said controller extracting a third battery voltage and a first battery operating current corresponding to the current acquisition time and a fourth battery voltage and a second battery operating current corresponding to a previous acquisition time; said controller determining a time interval based on said current acquisition time and said previous acquisition time; said controller calculating the actual battery charging and discharging capacity based on said time interval, said third battery voltage, said fourth battery voltage, said first battery operating current, and said second battery operating current.

15. The electronic cigarette according to claim 14, wherein said controller determines a standard battery charging and discharging capacity in said predetermined battery model based on said third battery voltage and said fourth battery voltage.